This course will help you learn about the Xilinx Kria™System-on-Module (SOM) and Kria KV260 Vision AI Starter Kit,enabling you to accelerate vision-based applications using the KV260Starter Kit right out of the box without any installation or FPGAknowledge.
The course also provides information on how you can build your ownhardware and software components, customize an AI model, andperform benchmarking. In addition, design guidelines for developingyour own carrier card are covered.
The emphasis of this course is on:
Providing an overview of the Xilinx KriaK26 SOM and itsadvantages.
Providing an overview of the Xilinx KriaKV260 Vision AI StarterKit and how to get started with the kit.
Running accelerated applications, such as the Smart Camera, AIBox, and Defect Detection applications, using the kit.
Running the NLP SmartVision demo application using the kit.
Building the hardware and software design components fromscratch.
Customizing the AI models used in the applications.
Reviewing the design guidelines for developers to design their own carrier card.
What's New for2023.1
Introduction to Vitis Video Analytics SDK (VVAS) module: AI models have been updated to the latest version of VVAS and the Vitis™ AI 3.0 tool
Building the Hardware and Software Design Components module: SOM developer workflows have been updated
All accelerated applications have been migrated to an Ubuntu image
All labs have been updated to the latest software versions
Level
SOM 1
Course Duration
2 days.
Audience
Software and AI developers who want to get started withusing Xilinx Kria SOMs.
Prerequisites
Basic knowledge of an embedded application development flow.
Software Tools
Vivado®Design Suite 2023.1.
Vitis™ unified software platform 2023.1.
PetaLinux Tools 2023.1.
Hardware
Kria KV260 Vision AI Starter Kit.
MicroSD card (16 or 32 GB).
Power supply (12V, 3A adapter).
Camera module (AR1335 or USB webcam).
4K monitor as a display device.
USB microphone.
Cables such as Ethernet, micro-USB to USB-A, and HDMI or DisplayPort.
Skills Gained
After completing this comprehensive training, youwill have the skills to:
Describe the Kria K26 SOM and its advantages.
Describe the features and capabilities of the KV260 Vision AI Starter Kit carrier card.
Get started with the Vision AI Starter Kit.
Deploy vision-based applications, such asthe Smart Camera, AIBox, Defect Detection, and NLP SmartVision applications, usingthe kit.
Build the hardware and software design components from scratch.
Customize the AI models used in the applications.
Design your own carrier card.
Course Outline
Day 1
XilinxKria System-on-Module (SOM) Overview - Introduces the Xilinx Kria K26 SOM and describes its advantages.Also outlines the features, functional interfaces, mechanical, andthermal aspects of the SOM. {Lecture}.
Xilinx Kria KV260 Vision AI Starter Kit Overview - Provides an overview of the Xilinx Kria KV260 Vision AI StarterKit, its features, and interfaces. The boot devices, heat sink,firmware, and power-on sequence for the kit are also described.{Lecture}.
Getting Started with the Vision AI Starter Kit - Covers how the initial board setup looks like and how to set upthe SD card, make the necessary connections with the kit, andboot the kit. Also shows how to use the platform management utility to install, select, and deploy different applications. {Lecture,Demos}.
Introduction to Vitis Video Analytics SDK (VVAS) - Provides an overview of the Vitis Video Analytics SDK (VVAS)technology and its core components. {Lecture}.
Accelerating Applications with the KV260 Vision AI StarterKit - Describes the top-level block diagram and pipeline stages fordifferent accelerated applications, such as the Smart Camera, AIBox, Defect Detection, NLP SmartVision applications. Alsodemonstrates how to deploy these applications using the KV260Starter Kit. {Lecture, Demos, Labs}
Day 2
Building the Hardware and Software Design Components - Illustrates how the hardware and software design components arebuilt from scratch for an accelerated application. {Lecture, Lab}.
Customizing the AI Models - Shows how to customize the AI models used in the acceleratedapplications. {Lecture, Lab}.
Kria SOMCarrier Card Design Guide - Outlines the electrical, mechanical, firmware, thermal, andpower-on configuration design considerations that must beaddressed as part of designing a Xilinx SOM-compatible carriercard. {Lecture}.
Request
Reservations can no longer be made for this event.